Fluticasone propionate liposomes for pulmonary delivery

The objective of the present study was to entrap fluticasone propionate in liposomes and study in vitro lung deposition of both liposomal dispersion and dry powder inhalation using twin stage impinger and Anderson cascade impactor. Liposomes were prepared by lipid film hydration method and characterized for size, shape, morphology, entrapment efficiency and in vitro lung deposition. The spray dried liposomes were further characterized for various physicochemical properties such as physical appearance, density, flow properties, drug content and in vitro pulmonary deposition. Fine particle fraction was also determined. Liposomal dispersion of fluticasone propionate was successfully prepared with more than 90% entrapment. Spray dried liposomes had mean size of 3-4 µ and a fine powder fraction of 9-10 %. Inclusion of antistatic agents such as leucine and magnesium stearate did not improve the aerosolisation behaviour of dry inhalation powder in this study.

developed and validated reverse phase HPLC method.The rizatriptan deposition in brain tissue from the developed intranasal formulations was compared with that obtained after IV administration (Table 2 and 3) as per the protocol approved by Animal Ethical Committee.

RESULTS AND DISCUSSION
Nanoemulsions with S/Cos (3:1) and gels were transparent, stable with high drug incorporation.Ex vivo diffusion studies of the developed formulations gave controlled release with 86% in 4 h.Both the formulations exhibited bioadhesion.Brain targeting of IN nanoemulsions (AUC=302.52μg min/g) was higher as compared to IN Gels (AUC=115 μg min/g) and IV administration (AUC=109.63μg min/g) of the drug.Thus brain targeting through intranasal delivery has a potential for treatment of migraine.
Pulmonary delivery of liposomes has been explored as an alternative to administration of drug agents used in pulmonary disorders.Liposomes offer protection against drug metabolism in the pulmonary tissues.Use of liposomes achieves sustained or prolonged release of drugs in lungs [1,2] .However, use of the system is hampered by long-term instability problems as liposomal dispersions may undergo physicochemical changes resulting in leakage of the encapsulated drug [1] .The dry powder inhalation (DPI) formulation can overcome instability problems of liposome dispersions, offer better stability; ease of administration and patient compliance.Fluticasone propionate (FP) a glucocorticoid administered as DPI formulation, an effective and widely used antiinfl ammatory agent for treatment of patients with asthma, allergic rhinitis and COPD was selected as a model drug.The objective of the present study was to entrap FP in liposomes and study in vitro lung deposition of both liposomal dispersion and DPI using Twin Stage Impinger (TSI) and Anderson Cascade Impactor (ACI).

MATERIALS AND METHODS
Phospholipids were obtained as gifts from Nattermann Phospholipid GmBH, Germany.Cholesterol (CH) was purchased from Qualigen fine chemicals, Mumbai, India.FP was obtained as a gift sample from Cipla, Mumbai.Lactose was obtained as gift sample from Friesland foods Domo, Netherlands.All other chemicals and solvents were of AR grade and were used without further purification.Freshly prepared distilled water was used throughout the study.
Liposomes were prepared by lipid fi lm hydration method and characterized for its size, shape, morphology, entrapment efficiency and in vitro lung deposition by TSI.Two factors (phospholipid composition and FP concentration), two level experimental design was made use of to optimise liposome size and drug entrapment.Liposomal dispersions were spray dried using mini lab spray dryer using lactose as protectant (DL1), magnesium stearate (DL2) and leucine (DL3) as antiadherents to overcome the deagglomeration of spray dried liposomes.The spray dried liposome powder was suitably diluted with pulmonary grade coarser lactose with objective to improve its flow properties and in vitro lung deposition.The spray dried liposomes were characterized for various physicochemical properties such as physical appearance, density, fl ow properties, DSC, XRD analysis, SEM, drug content and in vitro pulmonary deposition by ACI.Fine particle fraction (FPF) was determined by ACI using Rotahaler ® .

RESULTS AND DISCUSSION
Mean vesicle size in liposomal dispersions was 700-800 nm with polydispersity index of 0.1-0.3 and EE was 95-98%.One or more lamellae were visible in TEM images of blank and FP loaded liposomes.TSI study of FP loaded liposome revealed respirable fraction up to 60-65% (fig.1).Drug leakage was not significant when products were stored 4° and 25°/60% RH for three months, but particle size increased signifi cantly.The yield of spray drying of liposomal dispersion was in the range of 45-50% and drug content of spray dried liposomes was 98-100%.The DSC and XRD data of spray dried liposomal dispersion showed that FP is amorphised and/or is dispersed in molecular level in the bilayers of liposomes.The SEM images showed spherical morphology of spray dried particles (fi g. 2).FPF of spray dried liposomes was about 9-10% (Table 1).*MMAD= mass median aerodynamic diameter, # GSD = geometric standard deviation, DL1 is the spray dried liposomal dispersion with lactose as protectant, DL2 is the spray dried liposomal dispersion with magnesium striate and DL3 is the spray dried liposomal dispersion with leucine.
In conclusion, liposomal dispersion of FP was successfully prepared with more than 90% entrapment.Spray dried liposomes had mean size of 3-4 µ and FPF of 9-10%.Inclusion of antistatic agents such as leucine and magnesium stearate did not improve the aerosolisation behaviour of DPIs in this study.Further studies are warranted in order to improve the FPF.
Ondansetron hydrochloride is a serotonin (5HT 3 ) receptor antagonist used in the management of nausea and vomiting that is associated with cancer chemotherapy.There is a need for intranasal delivery due to poor bioavailability of drug because of first pass effect [1] .The objective of this study was to develop an intranasal delivery system of ondansetron hydrochloride using thermo sensitive polymer PF127 and mucoadhesive polymer.

MATERIALS AND METHODS
Lutrol F127 (PF127 and hydroxypropylcellulose (Klucel LF) was procured from Signet Chemicals Mumbai.Ondansetron hydrochloride was received as a gift sample from Dr. Reddy's Lab Hyderabad.